Foam plastic loose fill packing

ABSTRACT

Loose fill foam plastic packing is prepared by extruding an expandable plastic composition to form an unfoamed or unexpanded strand which is subsequently cut into short lengths and foamed, the improvement which comprises extruding the strand through a generally helical passageway. The strand on foaming has a generally helical configuration.

United States Patent 1191 Smith Aug. 13, 1974 FOAM PLASTIC LOOSE FILL PACKING 3,026,565 3/1962 Bonner 425/467 3,051,990 9/1962 Peterson 425/380 X [751 Layle Mldland Mlch- 3,522,342 7/1970 Nungesser et a1. 425/308 x [73] Assignee: The Dow Chemical Company,

Midland, Mich FOREIGN PATENTS OR APPLICATIONS 1,145,581 3 1963 G 425 461 221 Filed: Sept. 20, 1971 many 1211 Appl- N04 1821055 Primary ExaminerR. Spencer Annear Related s Application Data Assistant Examinerl iark Rosenbaum [62] Division of S61. NO. 831572, June 9, 1969, Attorney Agent abandoned.

52 US. Cl 425/308, 264/52, 425/316, [57] ABSTRACT /467, 425/8 7 C Loose fill foam plastic packing is prepared by extrud- [51] hit. Cl. B29C 17/14 ing an expandable plastic composigionito form an un- Field of Search 113, 209, foamed or unexpanded strand whlch 1s subsequently 425/461, 31, 382, 38212, cut into short lengths and foamed, the improvement 264/51-53 which comprises extruding the strand through a generally helical passageway. The strand on foaming has a [56] References Clled generally helical configuration.

UNITED STATES PATENTS 2,171,095 8/1939 0151111 425/381 4 5 D'awmg F'gures FOAM PLASTIC LOOSE FILL PACKING This application is a divisional application of my prior application Ser. No. 831,572, filed June 9, 1969 now abandoned.

A wide variety of pour-type or loose fill packings are prepared from foamable plastics. Some of such packings are set forth in US. Pat. Nos. 3,066,382; 3,251,728; 3,188,264 and 3,047,136. A particular characteristic of such a foam plastic loose fill packing which is desirable is that it flow relatively freely under the influence of gravity; that is, when it is used for packaging it may be readily dispensed from a conical hopper, and that it offer substantial resistance to relative movement of the particles when the particles are under pressure such as when enclosed in the shipping carton together with an item to be shipped. Spherical particles are generally unsatisfactory for such packaging and particles such as those described in US. Pat. No. 3,066,382 provide exceptional resistance to relative movement within the package but are dispensed only with difficulty. One form of strand that is eminently suited for many applications in loose fill packaging is a foamed strandhaving a generally helical configuration which advantageously is foamed by forming an unfoamed strand of a generally helical configuration and subsequently foaming the strand to prepare the desired product.

The present invention is concerned with an improved method and apparatus for the preparation of foamable plastic strands of a generally helical configuration and with providing a simple apparatus and method for the preparation of such strands.

These features and other advantages are achieved in the method of the present invention wherein a heat plastified synthetic resinous composition is extruded to form at least one strand of a foamable synthetic resinous composition, severing the strand in the unfoamed condition to provide a plurality of strand segments which, on subsequent heating, form an expanded or foamed strand segment, the improvement which comprises extruding the thermoplastic composition at a temperature at which it is thermoplastic and below the foaming temperature thereof through a generally helical passageway immediately prior to passing the strand from an extrusion die.

Also contemplated within the scope of the present invention is an apparatus for the preparation of foamable plastic strands, the apparatus comprising in cooperative combination means to provide a stream of heat plastified synthetic resinous material in operative combination with a die member, the die member having at least one discharge passage, the discharge passage having a generally helical configuration, means to cool a strand issuing from said die and means to sever said strand into a plurality of particle segments.

Further features and advantages of the present invention will become more apparent from the following specification taken in connection with the drawing wherein:

FIG. 1 schematically depicts a strand prepared in accordance with the present invention.

FIG. 2 is a schematic fractional sectional view of a die suitable for the preparation of the strand in accordance with FIG. 1.

FIG. 3 is an end view of the insert employed in FIG. 2.

FIG. 4 is a schematic view of an alternate embodiment of a die suitable for the preparation of hollow strands.

FIG; 5 schematically depicts apparatus for the preparation of foamable strands.

In FIG. 1 there is schematically depicted a helical strand of synthetic resinous plastic material generally designated by the reference numeral 10. The configuration of the strand 10 is generally the same whether it be composed of unfoamed foamable material or foamed foamable material.

In FIG. 2 there is shown a schematic sectional representation of a portion of a die generally designated by the reference numeral 15 adapted to prepare a strand such as the strand 10 of FIG. 1. The die 15 comprises a die body 16 having a feed or inlet end 17 and a discharge or outlet end 18. The die 16 defines a generally cylindrical cavity 19 in full communication with the end 17 and a discharge passageway or extrusion orifice 21 communicating with the cylindrical cavity 19 and spaced external to the discharge end 18 of the die 16. An insert 22 is disposed within the cavity 19. The insert 22 has a generally cylindrical configuration and has a feed end 23 disposed adjacent the inlet end 17 and a discharge end 24 disposed adjacent the discharge orifice 21 of the die 16. The insert 22 has formed therein a generally helical recess 26 extending the entire length of the insert 22. The recess 26 is adapted to receive polymeric material at the feed end 17 of the die 16 and discharge material to a generally radially disposed slot 28 in the discharge end 24 of the insert 22. The radial slot 28 is in full communication with the discharge slot FIG. 3 depicts an end view of the insert 22 showing the location of the radial slot 28 which communicates with the passageway 21.

In operation of the apparatus of FIGS. 2 and 3 in the practice of the method of the present invention, heat plastified synthetic resinous material which is capable of expansion after extrusion is supplied under extrusion pressure and temperature to the first end 17 of the die 16. The synthetic resinous material flows within a hellcal passage defined between the die body 16 and the insert 22, a passage having a configuration of the groove 26 of the insert 22. As the plastic material passes through the helical groove, molecular orientation is imparted in a direction of flow during the traverse of the helical groove. The oriented stream of plastic material leaves the helical groove 26, passes into the relatively short transverse groove 28 and is discharged through the relatively short discharge passageway 21.

As the extrudable visco-elastic melt has been oriented by the relatively long passage through the helical groove, the extrusion is conducted at such a rate that insufficient time elapses between leaving the helical groove and being discharged from the passageway 21 to permit loss of the helical orientation. The orientation of the resultant strand is time and temperature depen dent and therefore it is generally desirable to extrude at as low a temperature as possible in order to maintain the desirable orientation in the resultant strand. Beneficially, the strand is cooled on emergence from the opening 21 if unfoamed strands are required or extruded at a temperature sufficiently high to permit expansion when the strand leaves the opening 21. Advantageously, a die such as the die 15 employs any desired number of extrusion orifices each in association with a suitable helical passageway.

An alternate embodiment of the invention is set forth in FIG. 4 designated by the reference numeral 15a. The embodiment 15a comprises a die body 16a having a discharge passageway 21a. The discharge passageway 21a has an inwardly directed outwardly flaring passage portion 21b adjacent an insert 22a. A mandrel 31 is affixed to the insert 22a and is generally coaxially positioned within the discharge passageway 21a and is in operative communication with a helical groove 26a.

Operation of the embodiment of FIG. 4 accomplishes molecular orientation in a manner similar to the embodiment of FIG. 2. However, the addition of the mandrel 31 causes the extrude to be in tubular form which is highly desirable wherein packing material of minimal density is required.

FIGS. 2, 3 and 4 show particularly convenient die adaptations which permit the extrusion of strands having molecular orientation and a tendency to foam in a generally helical configuration. Other obvious variations are readily made. The embodiments of FIGS. 2, 3 and 4 permit ready modification of conventional die plates wherein an insert is readily prepared by external threading to form the helical groove such as the groove 26, and milling to obtain the radial passageway 28, and fitted to a corresponding opening prepared in the die plate. Helical passages can be formed in the die plate if desired employing electrical discharge machining or grinding employing an ultrasonically driven tool.

FIG. schematically depicts the operation of the present invention. An extruder 35 provides a stream of heat plastified synthetic resinous material containing a foaming or expanding agent to a die 36. The die 36 has a plurality of openings associated with helical passages 26 and 26a such as depicted in FIGS. 2 and 4. A plurality of strands 37 are discharged from the die 36. The strands have a generally helical molecular orientation. The strands 37 are passed to a heat treating means 38 wherein beneficially they are cooled in the unfoamed state below their thermoplastic temperature, or alternately, if desired, they are cooled in their foamed state below their thermoplastic temperature. The strands 37 passing from the heat treating means 38 are fed to a comminuting apparatus or means 39 which beneficially may be a breaker roll having a plurality of axially extending knives operating against a rubber roll to sever the strands 37 into a plurality of particles 41.

The method and apparatus of the present invention are useful with a wide variety of expandable synthetic resinous materials such as are disclosed in US. Pat. Nos. 3,066,382; 3,251,728 and 3,188,264.

For purposes of illustration, an apparatus is employed substantially as depicted in FIG. 5 wherein the die 36 has 300 openings each 0.040 inch in diameter. Each of the openings is provided with an insert substantially as depicted in FIG. 2 wherein the insert has an overall diameter of about V1 inch and an overall length The strands are removed from the water bath and passed through an air blast to provide a temperature of about 55 C. The strands are then passed to a breaker where they are cut into lengths of about 1.5 inches. The breaker is operated at a linear speed slightly in excess of the speed of extrusion to provide about a 25 percent stretch. The severed particles are placed in a hot air oven at about C. They expand to provide particles similar in appearance to that of FIG. 1 and are eminently suited for many packaging applications. When the breaker is operated at a reduced speed such that no stretch is given to the strands issuing from the die, they exhibit a generally helical configuration such as is shown in FIG. 1 but with a reduced pitch. On raising the extrusion temperature to a temperature sufficient to cause foaming of the extruded strands, generally helical foamed strands are obtained. When generally similar conditions are employed utilizing a single hole die wherein a helical passage having a maximum helix diameter of about A inch, passage diameter of about 0.72 inch formed in the die plate by electrical discharge machining, a strand is obtained which appears to have a higher degree of molecular orientation than in the foregoing illustration and on foaming forms a tighter helix; that is, a helix having a smaller pitch.

Similar beneficial results are achieved employing foamable polymethylmethacrylate, foamable polyvinyl chloride, foamable nylon compositions and the like. In all cases, the helical strands are suitable as a pour-type packing or dunnage material.

As is apparent from the foregoing specification, the present invention is susceptible of being embodied with various alterations and modifications which may differ particularly from those that have been described in the preceding specification and description.

What is claimed is:

1. An apparatus for the preparation of foamable plastic strands which assume a generally helical configuration on foaming, the apparatus comprising in cooperative combination means to provide a stream of heat plastified expandable synthetic resinous material in operative combination with a die member, the die member having at least one discharge passage, the discharge passage being in communication with the means to provide a stream and terminating remote therefrom in a die orifice, the discharge passage having a stationary generally helical configuration,

means to cool a strand issuing from said die orifice,

and means to sever said strand into a plurality of segments.

2. The apparatus of claim 1 wherein the die has a die plate, the die plate defining at least one internal generally cylindrical cavity and an extrusion orifice in communication with the cavity, an insert disposed within the cavity, the insert having a helical groove defined on the surface thereof, the insert and die defining a helical passageway.

3. The apparatus of claim 2 wherein the insert has disposed thereon a mandrel, the mandrel being generally concentric with the die orifice.

4. The apparatus of claim 1 having a plurality of said helical passageways, said passageways each having a die orifice. 

1. An apparatus for the preparation of foamable plastic strands which assume a generally helical configuration on foaming, the apparatus comprising in cooperative combination means to provide a stream of heat plastified expandable synthetic resinous material in operative combination with a die member, the die member having at least one discharge passage, the discharge passage being in communication with the means to provide a stream and terminating remote therefrom in a die orifice, the discharge passage having a stationary generally helical configuration, means to cool a strand issuing from said die orifice, and means to sever said strand into a plurality of segments.
 2. The apparatus of claim 1 wherein the die has a die plate, the die plate defining at least one internal generally cylindrical cavity and an extrusion orifice in communication with the cavity, an insert disposed within the cavity, the insert having a helical groove defined on the surface thereof, the insert and die defining a helical passageway.
 3. The apparatus of claim 2 wherein the insert has disposed thereon a mandrel, the mandrel being generally concentric with the die orifice.
 4. The apparatus of claim 1 having a plurality of said helical passageways, said passageways each having a die orifice. 